SU354220A1 - GAS RADIATION BURNER - Google Patents

Description

The invention relates to devices for the flameless combustion of gaseous fuels and can be used for furnaces of boilers and furnaces.

Radiation gas burners are known, comprising a mixer with a gas nozzle and an air inlet pipe, a distribution chamber and a radiating panel with craters for burning a gas-air mixture.

In these burners, gas is supplied to the mixer through a nozzle disposed with it, and gas and air are introduced into the mixer in parallel streams. A disadvantage of the known burner is the burning of the mixture on the panel surface outside the craters.

This necessitates the combustion of gas with a significant excess air ratio, which increases the heat loss. The purpose of the invention is to increase the combustion efficiency of the gas-air mixture inside the craters.

This goal is achieved by the fact that the craters in the radiating panel are made in the form of stepped cylinders with diameters gradually increasing in the direction from the distribution chamber to the outer surface of the panel. The gas nozzle is located tangentially to the internal surface of the mixer. The air inlet is connected to the mixer by tangentially positioned slots.

FIG. 1 shows a longitudinal section of the proposed burner; in fig. 2 shows a section along the line LL of FIG. one.

The burner includes a housing /, mixer 2

gas nozzle 3 and nozzle 4 for air intake. The housing 1 contains a distribution chamber 5, a distribution panel 6 with openings 7 and a radiating multistage (the drawing shows a two-stage)

panel 8 with craters made in the form of staggered cylinders 9 and 10. Between distribution 6 and radiating 8 panels a layer of thermal insulation is placed //. Pipe 4 for air inlet is connected to

mixer 2 using tangentially placed slots 12. The burner works as follows. The gas through the nozzle 3 is fed into the mixer 2, twists and moves with great speed in a spiral in the direction of the distribution chamber 5.

At the same time, the mixer 2 through tangentially placed slots 12 of the nozzle 4, which also receives rotational

moving in the same direction as the gas flow. Forming a gas-air mixture in the mixer 2 enters the distribution chamber 5 and then through the holes 7 of the gas distribution panel 6 in the craters of the craters the gas-air mixture burns and heats the radiating panel and to a high temperature.

This embodiment of the mixer 2 allows for a high degree of gas mixing with air, reduces the coefficient of excess air, and craters in the form of stepped cylinders 9 and 10 improve the combustion efficiency of the gas-air mixture inside craters and heat the radiating panel to a high temperature.

Claims (3)

1. Gas radiation burner containing a mixer with a gas nozzle and an air inlet nozzle, a distribution chamber and a radiating panel with craters for burning the gas-air mixture inside craters, characterized in that in order to increase the combustion efficiency of the gas-air mixture inside craters The latter are made in the form of stepped cylinders with diameters gradually increasing in the direction from the distribution chamber to the outer surface of the radiating panel. 2. Burner according to claim 1, characterized in that the gas nozzle is located tangentially to the inner surface of the mixer. 3. Burner according to paragraph.n. 1 and 2, characterized in that the air inlet pipe is connected to the mixer using tangentially placed slots.